An application for a recycler includes a pressure and temperature resistant metal vessel that is filled with a liquid. Within the vessel is at least one submerged electric arc between a pair of electrodes (e.g. carbon based electrodes) powered by either a DC or AC current. The electric arc produces a combustible gas as the liquid is pumped through a bore in one or both of the electrodes, delivering the liquid directly to the location of the arc, thereby reducing or eliminating any ignition of the gas by the arc. Should ignition occur, at least one vent in the electrode(s) or electrode holder(s) vents pressure from within the bore to the vessel area outside of the electrode(s).

A production apparatus for fine particles includes a vacuum chamber, a material supply device, a plurality of electrodes arranged and a collection device connecting to the other end of the vacuum chamber and collecting fine particles, which generates plasma and produces fine particles from the material particles, in which a first electrode arrangement region on the material supply port's side and a second electrode arrangement region apart from the first electrode arrangement region to the collection device's side which respectively cross a direction in which the material flows between the vicinity of the material supply port and the collection device are provided in the intermediate part of the vacuum chamber, and both the first electrode arrangement region and the second electrode arrangement region are provided with a plurality of electrodes respectively to form the electrodes in multi-stages.

The present invention concerns a reactor for the conversion of carbon dioxide or carbon monoxide into hydrocarbon and/or alcohol comprising a support made from an electrically and thermally conductive material, forming the wall or walls of at least one longitudinal channel that passes through the support and also acting as the cathode of the reactor, at least one wire electrode forming an anode of the reactor, and extending within each longitudinal channel, and being arranged at a distance from the wall or walls of the longitudinal channel, each wire electrode optionally being covered with an electrically insulating layer along the part of the wire electrode extending within the longitudinal channel, a catalyst capable of catalysing a conversion reaction for the conversion of carbon dioxide or carbon monoxide into hydrocarbon and/or alcohol, the catalyst being situated between the wire electrode and the wall or walls of each longitudinal channel.

A device and a process to propagate molecular growth of hydrocarbons, either straight or branched chain structures, that naturally occur in the gas phase to a molecular size sufficient to shift the natural occurring phase to a liquid or solid state is provided. According to one embodiment, the device includes a grounded reactor vessel having a gas inlet, a liquid outlet, and an electrode within the vessel; a power supply coupled to the electrode for creating an electrostatic field within the vessel for converting the gas to a liquid and or solid state.

System for processing material to generate syngas in a modular architecture may include a plurality of primary reactor chambers and a shared secondary reactor chamber. Each primary reactor chamber includes electrodes protruding into the chamber, the electrodes operable to generate an arc capable to generate first-stage gas from breakdown of the material when electricity is applied to the electrodes. The secondary reactor chamber is operable to receive the first-stage gas generated by the plurality of primary reactor chambers and to receive water vapour. The gas generated within the plurality of primary reactor chambers combine and interact with the water vapour to form second-stage gas. Turbulence can be generated within the secondary reactor chamber to improve mixing of the first-stage gas with the water vapour. Powering of each of the primary reactor chambers can be done with a different phase of power from a multi-phase input to ensure balanced power utilization.

A device and a process to propagate molecular growth of hydrocarbons, either straight or branched chain structures, that naturally occur in the gas phase to a molecular size sufficient to shift the natural occurring phase to a liquid or solid state is provided. According to one embodiment, the device includes a grounded reactor vessel having a gas inlet, a liquid outlet, and an electrode within the vessel; a power supply coupled to the electrode for creating an electrostatic field within the vessel for converting the gas to a liquid and or solid state.

A system and method are provided for the separation of hydrogen from natural gas feedstock to form hydrocarbon radicals. Aspects of the system include perpendicular magnetic and electric fields, a method of radical formation that separates hydrogen from the reaction process, and a separation method based on centrifugal forces and phase transitions. The gases rotate in the chamber due to the Lorentz force without any mechanical motion. Rotation separates gases and liquids by centrifugal force. The lighter species are collected from the mid region endpoint of the apparatus and fed back for further reaction. A new concept of controlled turbulence is introduced to mix various species. A novel magnetic field device is introduced comprised of two specially magnetized cylinders. A novel control of temperatures, pressures, electron densities and profiles by, RF, microwaves, UV and rotation frequency are possible especially when atomic, molecular, cyclotron resonances are taken into account. The electrodes can be coated with catalysts; the entire apparatus can be used as a new type of chemical reactor.

A reactor assembly for igniting and sustaining a plasma and method for performing a reaction. The assembly includes an elongated cylindrical inner electrode; a dielectric tube arranged helically around the elongated cylindrical inner electrode to form a helical reactor. The reactor assembly also includes an annular outer electrode arranged around at least a portion of the exterior of the helical reactor. The assembly includes a power source to provide a voltage across the elongated cylindrical inner electrode and the annular outer electrode. A process stream including at least a gas flows through the dielectric tube. The voltage is applied across the elongated cylindrical inner electrode and the annular outer electrode such that at least a portion of the flow of the process stream through the dielectric tube is exposed to the voltage and the plasma is ignited and sustained.

A system for performing treatment of a liquid by ionized gas comprises a laminar flow liquid gas plasma reactor. The plasma reactor includes electrodes, an upper and lower flow spreader, and a housing. The reactor uses gas to form a gas zone above the liquid where the gas is ionized directly above and in direct contact with the liquid. The ionized gas reacts with the liquid to form an effluent.

An apparatus for producing an inorganic powder and an apparatus for producing and classifying an inorganic powder are provided, wherein the apparatus for producing an inorganic powder includes an insulating tube, at least one pair of annular RF electrodes, and a gas supply apparatus. The pair of annular RF electrodes surrounds the outer circumference of the insulating tube to generate a first electric field region outside the insulating tube and generate a second electric field region having a plasma torch in the insulating tube after being turned on. The gas supply apparatus supplies a reaction mist and an inert gas into the insulating tube to thermally degrade and oxidize the reaction mist into an inorganic powder via the plasma torch.